LA-139 NMR IN LANTHANUM MANGANITES - INDICATION OF THE PRESENCE OF MAGNETIC POLARONS FROM SPECTRA AND NUCLEAR RELAXATIONS

We present La-139 NMR experiments on five powder samples of lanthanum manganites, with a Mn4+ concentration ranging from the antiferromagnet ic-insulator (AFM) to the ferromagnetic-conducting (FM) region of the phase diagram. We measure a positive hyperfine coupling C = 0.13 T/mu( B). A signal from nuclei in a FM environment is present at all composi tions, as evidenced by a hyperfine frequency in zero-field experiments , by a positive hyperfine shift in NMR experiments below T-c, and by a paramagnetic frequency shift following Curie-Weiss law. A signal from nuclei in an AFM environment is identified by a similar negative inte rcept Curie-Weiss law. The NMR spectra reveal a large temperature depe ndent fraction of static spin defects below T-c in the FM domains. Nuc lear relaxation indicates that the FM regions are influenced by diffus ing, AFM-correlated excitations, while the AFM regions probe spin fluc tuations from diffusing, FM correlated excitations. These results an i nterpreted in terms of electronic inhomogeneities due to the presence of a magnetic small polaron.